Monitor files are (T. Tsuboyama, 18-Jan-2000): /net/bwsdaq/daqdata/d0/usr/svddaq/svd05/report/svd10.hbook /net/bwsdaq/daqdata/d0/usr/svddaq/svd05/report/svd12.hbook /net/bwsdaq/daqdata/d0/usr/svddaq/svd05/report/svd_5days.hbook svd10 contains data for SVD1.0 svd12 contains data for SVD1.2 for recent 100 days (recorded every 1-2 minutes) svd_5days contains data for SVD1.2 for recent 20 days (recorded a few times more often) You can read these files but you can not write or erase any file to the directory (the directory is write-permitted for SVD people). There are following variables * 1 * R*4 * * * MY * DAY Days since today (always negative) * 2 * I*4 * * * MY * YEAR 1999 or 2000 * 3 * R*4 * * * MY * MONDAY month*100+day+hour/24+minu/24/60 * 4 * I*4 * * * MY * HOUR * 5 * I*4 * * * MY * MINU * 6 * I*4 * * * MY * SEC * 7 * I*4 * * * MY * SECOFDAY * 8 * I*4 * * * MY * UNIXTIME unix internal timer obtained by time(); * 9 * R*4 * * * MY * UNIXDAY UNIXTIME/60/60/24 * 10 * R*4 * * * MY * TMP(50) Temperatures: SVD electronics temperatures (SVD1.2 only) d_temp[ 1] SVD F_IC d_temp[ 2] SVD F_HS1 d_temp[ 3] SVD F_ER1 d_temp[ 4] SVD F_HS2 d_temp[ 5] SVD F_ER2 d_temp[ 6] SVD F_HS3 d_temp[ 7] SVD F_ER3 d_temp[ 8] CHIL F_FLTOP d_temp[ 9] SVD B_IC_DEAD d_temp[10] SVD B_HS1 d_temp[11] SVD B_ER1 d_temp[12] SVD B_HS2 d_temp[13] SVD B_ER2 d_temp[14] SVD B_HS3 d_temp[15] SVD B_ER3 d_temp[16] BP B_BLK7 SVD cooling tube temperatures d_temp[17] CHIL F_BP1 d_temp[18] CHIL F_BP2 d_temp[19] CHIL F_BP3 d_temp[20] CHIL F_BP4 d_temp[21] CHIL F_FL1 d_temp[22] BP F_BPSUPPORT d_temp[23] CHIL F_HE d_temp[24] CHIL F_FLBOT d_temp[25] CHIL B_BP1 d_temp[26] CHIL B_BP2 d_temp[27] CHIL B_BP3 d_temp[28] CHIL B_BP4 d_temp[29] CHIL B_FL1 <-- bwd flange cooling water d_temp[30] CHIL B_FL2 <-- bwd flange cooling water d_temp[31] CHIL B_HE d_temp[32] BP B_BLK3 Beam pipe temperarues d_temp[33] BP F_BP <-- Beryllium Centre d_temp[34] BP F_Z285 <-- 285mm from fwd flange d_temp[35] BP F_Z200 <-- 200mm from fwd flange d_temp[36] BP F_Z170 <-- 170mm from fwd flange d_temp[37] BP F_Z90 <-- 90mm from FWD flange d_temp[38] BP F_Z12 <-- 12mm from FWD flange d_temp[39] BP F_Z0 <-- On the forward flange d_temp[40] BP F_Z40 <-- 40mm from fwd flange d_temp[41] BP B_BP <-- Beryllium Centre d_temp[42] BP B_Z195 <-- 195mm from BWD flange d_temp[43] BP B_Z140 <-- 140mm from BWD flange d_temp[44] BP B_Z80 <-- 80mm from the bwd flange d_temp[45] BP B_Z12 <-- 12mm from BWD flange d_temp[46] BP B_Z0 <-- On the bwd flange d_temp[47] BP B_Z35 <-- 35mm from BWD flange d_temp[48] BP B_BLK11 <-- Cooling block outside SVD * 11 * R*4 * * * MY * VHV(64) * 12 * R*4 * * * MY * CHV(64) Bias high voltage * 13 * R*4 * * * MY * CLV(8) SVD power supply current * 14 * R*4 * * * MY * hum(3) Humidity (should be very small) * 15 * R*4 * * * MY * CDM(16) CDM position * 16 * R*4 * * * MY * BP(40) Beam pipe cooling system 01 WATTNK_RTD C Chiller Water Temperature (RTD) 02 HEPIP_150 C He pipe temperature (150cm) 03 HEPIP_300 C He pipe temperature (300cm) 04 HEPIP_600 C He pipe temperature (600cm) 05 HEPIP_GO C He pipe temperature (Go) 06 HEPIP_RET C He pipe temperature (Return) 07 HEPIP_FAR C He pipe temperature (Frange) 08 ROOM_TMP C Room Temperature 09 HE_PURITY % Helium gas purity 10 WARTNK_TC C Chiller Water Temperature(TC) 11 CMPGAS_T C Compressor Gas temperature 12 CMPCMP_T C Compressor Gas temperature 13 CMPMTR_T C Compressor Gas temperature 14 CMPTUB_T C Compressor Gas temperature 15 CMPVT1_T C He compressor Cooling water in 16 CMPVT2_T C He compressor Cooling water out 17 HE_BW_T C He Gas temperature BEAM PIPE in 18 HE_BW_P MPa He Gas Pressure BEAM PIPE in 19 HE_FW_T C He Gas temperature BEAM PIPE out 20 HE_FW_P MPa He Gas Pressure BEAM PIPE out 21 HE_FLOW Nm3/h Helium Gas Mass Flow <----------------- This must be important 22 CMP150 C Helium gas temperature 1.5m away from compressor 23 AFTER_OUT C Helium gas temperature after the AFTERCOOLER 24 SUCPRESS MPa Sucction pressure 25 STRTMP C Temperature around BELLE structure 26 FILTTMP C Temperature of the air filter 27 W_COOLER_IN Temperature of water at the input of the cooler 28 W_COOLER_OUT Temperature of water at the output of the cooler 29 AFTER_IN Helium gas temperature before the AFTERCOOLER 30 NC Not connected yet * 17 * R*4 * * * MY * MOS(32) RADFET: K and R measure the same dose with different ranges. "R" values are recommended to refer. if R values are not availble, K values could be used. val[ 1] F-045 K val[ 2] F-045 R val[ 3] F-135 K val[ 4] F-135 R val[ 5] F-225 K val[ 6] F-225 R val[ 7] F-315 K val[ 8] F-315 R val[ 9] B-045 K val[10] B-045 R val[11] B-135 K val[12] B-135 R val[13] B-225 K val[14] B-225 R val[15] B-315 K val[16] B-315 R val[17] RADF-6-000-R val[18] RADF-6-000-K val[19] RADF-7-090-R val[20] RADF-7-090-K val[21] RADF-1-180-R val[22] RADF-1-XXX-K val[23] RADF-3-OLDM-R val[24] RADF-3-XXX-K val[25] RADF-5-IC-R val[26] RADF-5-xxx-K val[27] RADB-4-000-R val[28] RADB-4-xxx-K val[29] RADB-8-180-R val[30] RADB-8-180-K val[31] RADB-2-270-R val[32] RADB-2-XXX-K * 18 * R*4 * * * MY * MOSA(8) RADFET values * 19 * R*4 * * * MY * PIN(32) Radiation level (SVD1.2 only) 1 PIN-small-F-180 deg 2 PIN-small-F-270 deg 3 PIN-small-B-090 deg 4 PIN-small-B-180 deg 5 PIN-small-B-inside-IC 6 PIN-Sydney-B-CDC-wall 7 PIN-NC0 8 PIN-NC1 9 PIN-Syd-F-1 10 PIN-Syd-F-2 11 PIN-Syd-F-3 12 PIN-Syd-F-4 13 PIN-Syd-B-1 14 PIN-Syd-B-2 15 PIN-Syd-B-3 16 PIN-Syd-B-4 * 20 * R*4 * * * MY * PINTOT(16) Above Pin data integrated against time. * 21 * R*4 * * * MY * BEAM(25) information from Accelerator and BELLE. 1-C-LEH,current 2-C-HER, 3-L-LER, life 4-L-HER, 5-Exp Number, 6-Run Number 7/8-L/H-NBUNCH, number of bunches to be filled. 9/10-L/H-SUM(C-BUNCH), sum of bunche current 11/12-L/H-NBUNCH, number of filled bunches 13/14/15:lumi1,2,3, 16/17/18:integlumi1/2/3 19-fill number 20-status(0-No injection 10/01/11--injection) */ * 22 * R*4 * * * MY * BEAMINT(8) Beam current integrated ******************************************************************